Soil CO2 emission as related to incorporation of sugarcane crop residues and aggregate breaking after rotary tiller

Teixeira, Luís Gustavo; Fukuda, Adrian; Panosso, Alan Rodrigo; Lopes, Afonso; Scala, Newton La

doi:10.1590/s0100-69162011000600005

Cited by 9 publications

(12 citation statements)

References 26 publications

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“…Esses resultados são similares aos obtidos por Teixeira et al (2011) ao avaliar o efeito da utilização da enxada rotativa na presença e ausência de cobertura de palha da cana-de-açúcar em relação à parcela sem preparo e sem cobertura de palha e observaram que os maiores valores de FCO 2 (0,777 g CO 2 m -2 h -1 ) foram registrados nas áreas com utilização da enxada rotativa na presença de palha. La Scala et al (2006) verificaram, avaliando a FCO 2 após preparo convencional (PC), reduzido (PR) e solo sem preparo (SP) também em áreas sob cultivo de cana-de-açúcar, que a FCO 2 total foi maior no PC (1.361,8 g CO 2 m -2 ) quando comparado ao PR (894,9 g CO 2 m -2 ) e SP (523,5 g CO 2 m -2 ).…”

Section: Resultsunclassified

“…Já em estudo realizado por La Scala et al (2006), houve correlação linear positiva entre FCO 2 e U solo e não significativa com T solo . Teixeira et al (2011) observaram, avaliando a correlação linear da FCO 2 com T solo e U solo que somente no preparo com enxada rotativa com a presença de palha superficial houve correlação (r = 0,84; p < 0,05) entre FCO 2 e U solo . Essas variáveis, no entanto, podem apresentar correlações não lineares com FCO 2 (Ussiri & Lal, 2009).…”

Section: Resultsunclassified

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Preparo do solo e emissão de CO2, temperatura e umidade do solo em área canavieira

Iamaguti

Moitinho

Teixeira

et al. 2015

Rev. bras. eng. agríc. ambient.

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R E S U M OO preparo mecânico do solo é uma das práticas agrícolas que contribuem para o aumento da perda de carbono via emissão de CO 2 do solo (FCO 2 ). Com este trabalho objetivou-se investigar o efeito de três sistemas de preparo do solo na FCO 2 , temperatura e umidade do solo em área de reforma da cultura de cana-de-açúcar. A área experimental foi constituída de três parcelas, cada uma recebendo um dos preparos do solo: preparo convencional (PC), subsolagem convencional (SC) e subsolagem localizada (SL). A FCO 2 , temperatura e a umidade do solo foram avaliadas durante o período total de 17 dias. A FCO 2 foi maior no preparo PC (0,75 g CO 2 m -2 h -1 ). A temperatura do solo não diferiu (p > 0,05) entre as subsolagens: SL (26,2 ºC) e SC (25,9 ºC). A umidade do solo foi maior na SL (24%), seguida pela SC (21,8%) e preparo PC (18,3%). Apenas no preparo PC foi observada correlação significativa (r = -0,71; p < 0,05) entre FCO 2 e a temperatura do solo. O preparo PC apresentou emissão total (2.864,3 kg CO 2 ha -1 ), superior às emissões nas subsolagens: SC (1.970,9 kg CO 2 ha -1 ) e SL (1.707,7 kg CO 2 ha -1 ). A conversão do sistema de preparo PC para a SL diminuiu as emissões de CO 2 do solo, reduzindo a contribuição da agricultura para o aumento dos gases de efeito estufa na atmosfera.Soil tillage and emission of CO 2 , soil temperature and soil moisture in a sugarcane area A B S T R A C TSoil tillage is one of the agricultural practices that may contribute to increase the loss of carbon through emission of CO 2 (FCO 2 ). The aim of this study was to investigate the effect of three soil tillage systems on FCO 2 , soil temperature and soil moisture in a sugarcane area under reform. The experimental area consisted of three tillage plots: conventional tillage (CT), conventional subsoiling (CS), and localized subsoiling (LS). FCO 2 , soil temperature and soil moisture were measured over a period of 17 days. FCO 2 showed the highest value in CT (0.75 g CO 2 m -2 h -1 ). Soil temperature presented no significant difference (p > 0.05) between LS (26.2 °C) and CS (25.9 °C). Soil moisture was higher in LS (24%), followed by CS (21.8%) and CT (18.3%). A significant correlation (r= -0.71; p < 0.05) between FCO 2 and soil temperature was observed only in CT. The conventional tillage presented a total emission (2,864.3 kg CO 2 ha -1 ) higher than the emissions observed in CS (1,970.9 kg CO 2 ha -1 ) and LS (1,707.7 kg CO 2 ha -1 ). The conversion from CT to LS decreased soil CO 2 emissions, reducing the contribution of agriculture in increasing the concentration of greenhouse gases in the atmosphere. Palavras-chave:respiração do solo subsolagem cana-de-açúcar gases do efeito estufa

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Section: Resultsunclassified

Preparo do solo e emissão de CO2, temperatura e umidade do solo em área canavieira

Iamaguti

Moitinho

Teixeira

et al. 2015

Rev. bras. eng. agríc. ambient.

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“…Immediate increase in CO 2 emissions after soil tillage may be due to a rapid increase in microbial activity for decomposition of labile organic matter caused by the increased soil aeration, as was exposed by Al-Kaisi and Yin (2005), or may instead be due to the phenomenon described by Rochette and Angers (1999) as 'degassing', which involves the physical expulsion of CO 2 from the soil at the time of tillage. Teixeira et al (2011) assessed the CO 2 emissions due to the incorporation of sugarcane crop residues and the aggregate breaking after rotary tillage, and reported high emissions immediately after tillage operations with exponential decay over time. The behavior of exponential decay in the emission over time after tillage has been reported for other research performed in Brazil .…”

Section: Evolution Of Co 2 Emissionsmentioning

confidence: 99%

Carbon dioxide emissions under different soil tillage systems in mechanically harvested sugarcane

Silva-Olaya¹,

Cerri²,

Scala

et al. 2013

Environ. Res. Lett.

106

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Soil tillage and other methods of soil management may influence CO 2 emissions because they accelerate the mineralization of organic carbon in the soil. This study aimed to quantify the CO 2 emissions under conventional tillage (CT), minimum tillage (MT) and reduced tillage (RT) during the renovation of sugarcane fields in southern Brazil. The experiment was performed on an Oxisol in the sugarcane-planting area with mechanical harvesting. An undisturbed or no-till (NT) plot was left as a control treatment. The CO 2 emissions results indicated a significant interaction (p < 0.001) between tillage method and time after tillage. By quantifying the accumulated emissions over the 44 days after soil tillage, we observed that tillage-induced emissions were higher after the CT system than the RT and MT systems, reaching 350.09 g m −2 of CO 2 in CT, and 51.7 and 5.5 g m −2 of CO 2 in RT and MT respectively. The amount of C lost in the form of CO 2 due to soil tillage practices was significant and comparable to the estimated value of potential annual C accumulation resulting from changes in the harvesting system in Brazil from burning of plant residues to the adoption of green cane harvesting. The CO 2 emissions in the CT system could respond to a loss of 80% of the potential soil C accumulated over one year as result of the adoption of mechanized sugarcane harvesting. Meanwhile, soil tillage during the renewal of the sugar plantation using RT and MT methods would result in low impact, with losses of 12% and 2% of the C that could potentially be accumulated during a one year period.

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“…Soil tillage practices are used by farmers to alleviate soil compaction; however, these operations reduce soil compaction only temporarily (Hoorman, Sá, & Reeder, ) and influence the decomposition of organic matter and losses of carbon (C) to the atmosphere in the form of CO 2 (Abdalla et al., ; Teixeira, Fukuda, Panosso, Lopes, & La Scala, ). The disruption of soil aggregates exposes organic matter, leading to a rapid oxidation (Schwartz, Baumhardt, & Evett, ; Ussiri & Lal, ).…”

Section: Introductionmentioning

confidence: 99%

Soil tillage and cover crop on soil CO₂ emissions from sugarcane fields

Farhate

Souza

Scala

et al. 2019

Soil Use and Management

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Soil tillage is an agricultural practice that directly affects the global carbon cycle. Our study sought to assess the implications of adopting sunn hemp cover crops with different tillage practices on CO2 emissions for two soil types (clayey and sandy soil) cultivated with sugarcane in Brazil. The experimental design was a split‐plot with randomized blocks, with the main plots being with cover crop or fallow and sub‐plots being under conventional or minimum tillage. Our results indicate that during the first 50 days after soil tillage, the variation in soil CO2 emissions was stimulated by cover crop and soil tillage, while after that, it became dominated by the root respiration of sugarcane plants. We also found that over the first 97 days after the tillage, the clayey soil showed differences between minimum tillage with cover crop and fallow. Conversely, for sandy soil over the first 50 days following, there were differences between the tillage systems under cover cropping. Emissions from sugarcane rows were found to be greater than those from inter‐row positions. We concluded that soils under different textural classes had distinct patterns in terms of soil CO2 emissions. The correct quantification of CO2 emissions during the sugarcane renovation period should prioritize having a short assessment period (~50 days after soil tillage) as well as including measurements at row and inter‐row positions.

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Soil CO2 emission as related to incorporation of sugarcane crop residues and aggregate breaking after rotary tiller

Cited by 9 publications

References 26 publications

Preparo do solo e emissão de CO2, temperatura e umidade do solo em área canavieira

Preparo do solo e emissão de CO2, temperatura e umidade do solo em área canavieira

Carbon dioxide emissions under different soil tillage systems in mechanically harvested sugarcane

Soil tillage and cover crop on soil CO₂ emissions from sugarcane fields

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Soil CO2 emission as related to incorporation of sugarcane crop residues and aggregate breaking after rotary tiller

Cited by 9 publications

References 26 publications

Preparo do solo e emissão de CO2, temperatura e umidade do solo em área canavieira

Preparo do solo e emissão de CO2, temperatura e umidade do solo em área canavieira

Carbon dioxide emissions under different soil tillage systems in mechanically harvested sugarcane

Soil tillage and cover crop on soil CO2 emissions from sugarcane fields

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Product

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Soil tillage and cover crop on soil CO₂ emissions from sugarcane fields